Abstract
AbstractNorthern Europe and the UK experienced an exceptionally warm and wet winter in 2019/20, driven by an anomalously positive North Atlantic Oscillation (NAO). This positive NAO was well forecast by several seasonal forecast systems, suggesting that this winter the NAO was highly predictable at seasonal lead times. A very strong positive Indian Ocean dipole (IOD) event was also observed at the start of winter. Here we use composite analysis and model experiments, to show that the IOD was a key driver of the observed positive NAO. Using model experiments that perturb the Indian Ocean initial conditions, two teleconnection pathways of the IOD to the north Atlantic emerge: a tropospheric teleconnection pathway via a Rossby wave train travelling from the Indian Ocean over the Pacific and Atlantic, and a stratospheric teleconnection pathway via the Aleutian region and the stratospheric polar vortex. These pathways are similar to those for the El Niño Southern Oscillation link to the north Atlantic which are already well documented. The anomalies in the north Atlantic jet stream location and strength, and the associated precipitation anomalies over the UK and northern Europe, as simulated by the model IOD experiments, show remarkable agreement with those forecast and observed.
Highlights
The winter of 2019/20 saw a positive North Atlantic Oscillation (NAO; Figure 1a)
This paper considers whether it is likely that the positive Indian Ocean dipole (IOD) contributed to the observed positive NAO
We look further into the mechanisms whereby the IOD can influence the north Atlantic using a combination of reanalysis data and model experiments
Summary
The winter of 2019/20 saw a positive North Atlantic Oscillation (NAO; Figure 1a). This strengthened the north Atlantic storm track, and moved it further poleward, leading to a warm and wet winter in the UK and northern Europe. Winter 2019/20 forecasts from the original three C3S (Copernicus Climate Change Service, 2017) seasonal forecast systems are analysed These are GloSea (UKMO System 14; MacLachlan et al, 2015), SEAS5 (ECMWF System 5; Johnson et al, 2019), and System 7 (Météo-France; http://www.umr-cnrm.fr/ IMG/pdf/system7-technical.pdf), and the forecasts contain 62, 51, and 51 ensemble members respectively. A freely running 40 member coupled ensemble forecast is initialised in November using initial conditions from this perturbedSST integration (exact details of the method are given in Section 5 of Dunstone et al, 2019). At this point, the atmosphere can begin to respond to the perturbed Indian Ocean temperatures.
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